Electromagnetic warp

We have a proof available that designing a warp drive using an electromagnetic field is no “science fiction”. The figure shows one of the models of a non-reactive propelling unit from 2013

Experimental data shows a high level of efficiency. Current ion or microwave motors offer thrust levels that are lower by several orders. The specific impulse thus becomes an unnecessary quantity and is replaced with the specific energy impulse.

High-capacity unit

The research of high-capacity units has been suspended. We are narrowing down our interest to a high level of specialization. We know, nevertheless, how to finalize this project momentarily set aside.

Future accumulators will be based on a new, predominantly physical principle.

Helical current divider

The research of brushless technology lead us to essential inspiration.

Picture of one part of an interesting experiment, which disproved a number of false concepts of magnetic field behaviours.

Quantizer

Parts of the experimental equipment for demonstration of quantum effects.

Quantum effects can be observed in real environment. This will allow deeper probability-based study of mathematical models.

Laboratories

The equipment of our laboratories is moderate and efficient, allowing us to come to undoubtedly interesting discoveries with minimum costs.

The models are adjusted to the sensitivity of available instrumentation and, thanks to the creative technical approach, ensure experimental cogency.

Production of models

All our statements are underpinned by an actual model.

Creative designs allow us to question the traditional electrodynamics doctrine. We work on elimination of the myths in theoretical electrodynamics through our experiments. The dominance of mathematical way of thinking over the technical and physical approach to electrodynamics results in a stagnation in this field.

Production of models

Verification of so-called verified facts is the essence of our work.

Doubts are the driving force of any progress. There is no technical problem that we cannot resolve, given time.

We deem theoretical research in electrodynamics as a marginal area.

We have the machinery necessary for production of the experimental equipment.

Introduction

SUPRATECH s.r.o. Laboratory of Physics and Technology

SUPRATECH s.r.o. was established on 21 October 2008 when it was registered in the Regional Court in Brno under File No. C 60057. At the end of 2012, the company made several discoveries in the field of electrodynamics.

First, the objective of our company was to carry out applied research, especially in the field of electrodynamics. Later, the applied research turned into basic research. The priority of this basic research was experimental verification of the current theoretic electrodynamics, taking advantage of modern technologies, ideas and the discovery of high-temperature superconducting shielding from 1987. The set objectives led to several other discoveries that are currently used by our company as a basis for the creation of new technologies.

State of the art of electrodynamics

These days, traditional physical disciplines only restrict their focus on the mere description of the state. They are presented as a set of absolute laws. The research has virtually come to a stop. We have noticed the most serious backwardness in electrodynamics. Electrodynamics have become a kind of scientific mission and it is almost impossible to ask most of renowned personalities questions about physics and expect physical, meaning experimental, answers from them. The only answers we get are mathematical and theoretical ones that are generalized and considered to be best-proven with reference to the advancement in interdisciplinary or partial disciplines. Since 1865 it has been virtually impossible to push forward any new ideas and thoughts that would be against the current, experimentally outdated theory, which is due to hyper-correctness. The study of electrodynamics is actually a study of the continuity equation with multiple variations. Engineers thus have a theoretical tool that is overly dependent on various chart coefficients. The actual advancement in traditional electrodynamics is zero. Advancement in disciplines that have seceded from physics, more specifically from electrodynamics (e.g. electrical engineering, electronics, microelectronics), or advancement in interdisciplinary disciplines (e.g. biophysics, geophysics, electrochemistry, astrophysics) is often impropriated by traditional electrodynamics that claims it is the consequence of the quality of its theoretical basics. In fact, the theoretical basis of electrodynamics has never had any influence on the discoveries that pushed the above named disciplines forward. We have also noticed that many engineers don´t actually understand Maxwell´s equations and they often follow them in terms of time-related change in an induction flow, while they don´t respect (or very little) the preservation of continuity that should make sense by understanding Maxwell´s equations. This can be evidenced by various intuitive technical solutions that only exist on paper and at patent offices. Our research thus focused on these non-functional solutions. And we found out it is possible to make them actually work. We performed an experiment concerning the creation of Lorentz force. The report can be seen at the following link here.

Where does our criticism of Maxwell´s equations stem from ?

The following question must automatically come to mind: can such criticism be justified? The reply is as follows: Presentation of Maxwell´s equations concerns theoretic homogeneous magnetic field. This has widened the scope of values, in terms of mathematics, to a more general value scale that should include a positive result also for a uniform movement of electrically neutral conductor in a homogeneous magnetic field or, equivalently, for a time-related change of homogenous magnetic flux. However, no such homogeneous magnetic field exists out there in nature. Small non-homogeneities of magnetic values measured in experiments in the past have always been neglected. This, together with the fact that Maxwell´s equations do not provide, unless permeability corrections of the environment are made, direct values of the variables measured, implied a seeming harmony between the theory and the practice. Our company did not go along with this approach and performed its own experimental models using homogenized magnetic field (homogeneous radial pathways, circles). By using such a homogenized field we were able to verify reliably what the relations between an experiment and Faraday´s law (and theoretic electrodynamics in particular) actually are. You can find more information in an article about the experiment that proves there is a measurable discrepancy between the experiment and Faraday´s law from the perspective of Lorentz force (in terms of length integral:
link
). The report on the direct result from the perspective of magnetic flux (i.e. planar integral) is currently being prepared. These two results constitute comprehensive physical evidence that simple movement of a conductor through a homogeneous magnetic field as well as a simple time-related change of homogeneous magnetic flux are only weak preconditions for the occurrence of electromagnetic induction or inversion. These results prove that mathematic equation, so-called Faraday´s law, does not apply to the value ranges that pass through homogeneous or radially homogenized magnetic fields. In case of those values that pass through real non-homogeneous magnetic fields, Faraday´s law may only show an approximate identity with reality by means of linear transformations expressed in environment permeability coefficients. We believe that readers who are good at maths will easily understand that any linear coefficient may make any physical values seem real.

Faraday's law versus effects of magnetic field gradient

Therefore, Maxwell´s equations give us only a rough picture of reality, in other words: they do not apply to homogeneous fields and they give us a wrong physical picture of non-homogeneous fields with mathematical values that are only approximately correct. An unpleasant theoretic consequence of our experiments for Maxwell´s equations is that the preservation of continuity of a magnetic field is insignificant with respect to the occurrence of induction. However, there is one positive fact for Maxwell´s equations, particularly for Faraday´s law: for every closed electric circuit in a non-homogeneous magnetic field there is a unifying, universal and linear transformation (Coefficient of average usability of magnetic field levels resulting from the magnetic field gradient) that will ensure that calculations will correspond with real induction values or inversion values and which, furthermore, replaces the coefficient that takes into account the magnetic environment. This coefficient is a measurable quantity, in contradiction to the mathematically derived environment constant (mathematically derived from the Ampère´s circuital law that is related to the Faraday´s law that is wrong in terms of physics). The environment permeability thus becomes a redundant constant. We could say that, in terms of Faraday's law, the permeability of the environment also implies (among others) the level of average usability of magnetic field levels. The problem is that from the perspective of Faraday´s law the environment permeability would always have to be zero for a conductor that moves in the direction of the magnetic fields and that is somehow homogenized. In a conductor that would be moving within the same field but in a different direction than the homogenized direction is, the environment permeability would suddenly shift to non-zero values. This fact is in apparent contradiction with the reason of existence of the environment permeability as it has to be constant for a given environment and independent of the source of the magnetic field.

Patent offices make their decisions on the grounds of obsolete and outdated theories

The purpose of publishing this kind of information is to evoke a discussion and request for new technical solutions and technologies we develop in connection with the experimental discovery of direct electric power transformation to a movement impulse (electromagnetic warp). This may be rather time demanding. We will only go to a patent office if we have a functional model. We do not presume that any patent officer would take us seriously unless we have such a model. This expectation is logically linked to the fact that Maxwell´s equations are “blind” to such presumptions of our, or “idle” if you like. By now we have gathered enough information we can start publishing without losing the investment potential resulting from our research.

We did not expect such strong resistivity of today´s scientific conservatism. Can electrodynamics still tell apart a significant discovery from an insignificant one ?

In the course of time we have come to understand it will not be easy at all to persuade the expert public to look seriously into what we are publishing. We presented an anonymous reviewer from Czech Technical University with semi-finished results for external examination and while we saw the courage to give general, unspecific and negative assessments, while we encountered a lack of courage to get engaged in specific discussions that would justify these rejecting attitudes to the results presented or with a lack of courage to give reasons why these results should be labelled as uninteresting. We have also presented an older version of a report on research outcomes to an academic theorist who refused to abandon relativistic argumentation in order to advocate the current theoretical platform, even at the price that in such a case that relativity would become applicable depending on what type of field we are observing. The response of this theorist was as follows: "...when looking at it from the perspective of inertial as well as non-inertial perspective, we arrive to an absolute identity between Maxwell´s theory and your experiment..." We can hardly imagine we could accept this approach in terms of physics and admit that there is no reference system for homogeneous fields that would ensure shielding, while there is always such a reference system for non-homogeneous fields. We could only admit this if we started using relativity as a universal magic formula. We believe (judging from just a single meeting so far) that the current academia is mathematically oriented (mathematics is a subject created by man, not by the nature) and lacks physically-technical invention. It also includes a certain amount of professional self-conceit and other influences. On the other hand, we should be grateful that the unanonymous academic we addressed was able to give us at least certain counterarguments. We can also find certain understanding for the rejecting response of a professor who has made a career in an academic environment where the topic of Maxwell´s equations is respected as the essentials of a fundamental physical opinion. The conservativeness of electrodynamics is confirmed by the fact that it is one of very few scientific disciplines that only accept one single theory and refuse all other alternatives (which is impossible, e.g., in medicine, biology or geology).

An absurd situation in practical electrodynamics: Myths about homogeneous magnetic field

In order to clear away the deep-rooted myth of current electrodynamics, which is the presumption that there can be solutions of direct current electric machines without brushes, electronics and semi-conductors (in other words independent of brushes and non-homogeneous magnetic fields), we have announced a reward for the person who will demonstrate us such a functional machine. We do so with respect to the existence of patents that present such solutions as not only functional, but also usable in industry. Naturally, we can provide you with the relevant researches upon request. Some of these patents may have actually been manufactured, but we believe that if they are functional, it is always thanks to internal electronics they are equipped with although the relevant patent application claims these inventions do not need it. The usual arguments are that such engines (for instance) could not otherwise be regulated. However, such an argument does not stand up, since external voltage regulators can do the same job and even in a simpler manner. It is thus not possible to install electronic devices internally in inventions designed in this way if they are supposed to be functional without electronics. However, we understand the marketing power of using one´s own invention de iure. Who cares that it is in fact non-functional and needs to be tuned up with well-proved adjustments.

The money in our transparent banking account is intended for the first person who will demonstrate us a functional model: current reward is CZK 230,000 and keeps increasing. We will be more than happy to provide you with a manual how the money can be achieved using patents granted. Or it can not ?

At present, the amount of the reward can be seen at our transparent account: link.
We believe somebody will be interested in picking this money, all you need to do to get it is to prove us wrong. Or are experts paid so well these days that they couldn´t be bothered and try to get this money with a little effort? Terms and Conditions concerning this transparent account can be seen here: link.

The future for Supratech s.r.o

The future of our company lies in three tasks:
- Development of new technology for the construction of electromagnetic warp.
- Publishing and making appeals to academic public to start presenting unbiased and scientific arguments that would disprove the above mentioned experiments.
- Writing a monograph that will provide comprehensive information about the new view of electrodynamics: it will include experiments we consider strategic for future investments.

The purpose of the second task is to draw attention to the fact that electrodynamics (as well as some other disciplines) are outdated, globalised and unified, which increases the risk of long-term preservation of this global mistake. Some traditional disciplines focus on globalized correctness and live their quiet academic life that may be nothing more but missionary teachings. We are of the opinion that science should not be left in isolation within a community where the experts´ authority and genius is untouchable. Quite on the contrary: it is necessary to keep inviting scientific organizations (even in non-specialist terms) to prove the justifiability of considerable funds that are invested in their operation.

You can find history of the costs our company invested, with no government subsidies, here: link. Information about the activity of our company link .

News

Expected publication of the results of the experiment with the direct change of flow of homogenized magnetic field:
The purpose of this experiment is to show even for the most sceptical ones that the change of magnetic flux is too weak of a condition for the emergence of electromagnetic induction. The result of the experiment will be published similarly to the paper already reported in terms of the emergence of Lorentz force. The technical implementation is not easy as we do not content ourselves with neglecting the heterogeneity of the magnetic field.

Why have these experiments been carried out earlier? There is still a large gap between academic concepts and their experimental implementation. Out company strives after bridging this gap by a non-traditional physical and technical approach. A long time has already elapsed since the creation of Maxwell's approach; during this time, a number of discoveries have been achieved, which may contribute to a review of this approach.

Concurrently with the experiment mentioned above, measurements of motion of conductor in a heterogeneous magnetic field are carried out in combination with the study of the dependence of conductor movement in a variable magnetic field on the induced voltage level. This will represent another step to the creation of a prediction method based on modified (narrowed down) Maxwell's equations. At present, we are not planning to publish these measurements.

In the near future, we will strive after a systematic promotion of our experiments in the media. We would be very glad if other contributors to (in our opinion) a return motivation account took part in this process. Further information can be found at here. The fact that patent offices worldwide make mistakes in their decisions could result in the initiation of the process of review of the official theoretical platform. At the same time, other workplaces might also be activated, which could be able to work on research in electrodynamics, carrying out equivalent experiments. In 2017, we offered to the Dean of the Czech Technical University (CVUT Prague), that any of the employees of the faculty of Electrical Engineering would receive a financial reward from the motivation account. It remained without any response, even though it was sufficient to demonstrate a functional model of any of the patented pure engine/generator. All patent numbers together with contact to the authors were stated in case of a necessary purchase. The current balance of the account is here, with an additional 200,000 CZK available for overhead costs. The translation text of the call is available for viewing on this link.

Considerations on mathematical and physical logic: The mathematical areas utilized in physics (e.g. mathematical analysis, algebra) are closed logical systems derived from axioms and definitions based on the Euclidean concept of space. Axioms and definitions are elements not requiring evidence.Physical logic is, in our opinion, the opposite of the mathematical logic. It is therefore open and not based on axioms and definitions. If anything is considered as a law (axiom) in physics for the sake of simplicity, then this law needs to be continuously proven and confronted with its experimental and practical implementation. The same applies to physical definitions, which are based on current concepts and needs of practical physics. This approach allows interpreting the physical reality in a dynamic manner, updating this interpretation continuously based on new findings. This approach to physics results is a view in that e.g. mathematical analysis can be used, to the extent of efficient application, as a source of inspiration and approximate description of physical phenomena, not as a part of the basic structure.